DOCSLIB.ORG

An Annotated Check-List of Australian and New Zealand Polychaeta, Archiannelida and Myzostomida

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
An Annotated Check-List of Australian and New Zealand Polychaeta, Archiannelida and Myzostomida AUSTRALIAN MUSEUM SCIENTIFIC PUBLICATIONS Day, J. H., and P. A. Hutchings, 1979. An annotated check-list of Australian and New Zealand Polychaeta, Archiannelida and Myzostomida. Records of the Australian Museum 32(3): 80–161. [31 May 1979]. doi:10.3853/j.0067-1975.32.1979.203 ISSN 0067-1975 Published by the Australian Museum, Sydney naturenature cultureculture discover discover AustralianAustralian Museum Museum science science is is freely freely accessible accessible online online at at www.australianmuseum.net.au/publications/www.australianmuseum.net.au/publications/ 66 CollegeCollege Street,Street, SydneySydney NSWNSW 2010,2010, AustraliaAustralia AN ANNOTATED CHECK-LIST OF AUSTRALIAN AND NEW ZEALAND POLYCHAETA, ARCHIANNELIDA AND MYZOSTOMIDA By J. H. DAY* AND P. A. HUTCHINGS Australian Museum, Sydney ABSTRACT All the published records of Polychaeta, Archiannelia and Myzostomida from the seas around Australia and New Zealand have been extracted from over 200 publications. The currently accepted specific names are listed alphabetically family by family and each is followed by the synonyms that have been used in the publications dealing with the region. All locality records are given as degress of latitude and longitude with a symbol to indicate the depth range. A map marked with two degree latitude/longitude squares is given for ease of reference. The repositories ofthe collections and of the types of species first described from Australia and New Zealand are shown. TABLE OF CONTENTS INTRODUCTION. ....................................................... p. 81 ACKNOWLEDGEMENT. ............................ .• .................... p.64 MVZOSTOMIDA: Myzostomidae p. 84 ARCHIANNELlDA: Nerillidae p. 85 POLYCHAETA: ERRANTIA POLYCHAETA: SEDENTARIA Aphroditidae ................ .. p. 85 Spionidae ................... .. p. 122 Polynoidae .................. .. p. 86 Magelonidae p. 124 Polyodontidae ............... .. p. 92 Acrocirridae ................. .. p. 125 Sigalionidae ................. .. p. 92 Chaetopteridae .............. .. p. 125 Amphinomidae .............. .. p. 94 Cirratulidae p. 125 Palmyridae .................. .. p. 95 Cossuridae .................. .. p. 126 Spi.nt~eridae p. 95 Heterospionidae ............... p. 126 Plslonldae. .................. .. p. 95 Orbiniidae p. 126 Phyllodocidae p. 95 Paraonidae .................. .. p. 128 Alciopidae p. 97 Opheliidae .................. .. p. 128 Typhloscolecidae p. 98 Scalibregmidae .............. .. p. 129 Tomopteridae p.98 Arenicolidae p. 130 Hesionidae .................. .. p. 98 Capitellidae p. 130 Pilargidae p. 99 Maldanidae p. 131 Syllidae ................... .. .. p. 99 Oweniidae .................. .. p. 132 Nereidae .................... .. p. 105 Sternaspidae p. 133 Sphaerodoridae p.111 Flabelligeridae ................. p. 133 Notophycidae p.111 Sabellariidae p. 134 Lacydonidae. ................ .. p.111 Amphictenidae. ... .. .. .. .. p. 134 Nephtyidae p.111 Ampharetidae p. 135 Glyceridae: Glycerinae p. 113 Trichobranchidae .............. p. 136 Goniadinae p. 114 Terebellidae. .................. p. 136 Eunicidae: Eunicinae p.114 Sabellidae. ................. ... p. 140 *Present address: Department of Zoology, University of Cape Town. Records of The Australian Museum, 1979, Vol. 32, No. 3,80-161, Figure 1. 81 J. H. DAY and P. A. HUTCHINGS Onuphidinae ..... .. p. 118 Serpulidae: Serpulinae . p.142 Lysaretinae ....... .. p. 119 Filograninae . p.148 Lumbrinerinae .... .. p. 119 Spirorbinae . p.149 Arabellinae ....... .. p. 121 Dorvilleinae p. 121 Histriobdellidae p. 122 REFERENCES . p.151 INTRODUCTION The records of Australian and New Zealand Polychaeta are spread through 184 publications many of which are in old or obscure journals. Moreover more than half the specific names are obsolete, others are misidentifications and some of the "new" species should obviously be sunk in the synonymy. Further the locality records are so numerous and scattered that it takes days to determine the geographic distribution of any species. For all these reasons it is hoped that this check list which includes all the published records of the Archiannelida, Myzostomida and Polychaeta will be useful to later workers. The list has several limitations. While it includes records from the Australian-New Zealand region from the Torres Straits in 10° south to Campbell Island in 52° south and outlying islands such as Lord Howe, Kermadec, Chatham, Snares and Auckland, it excludes records from Cocos and the Indonesia-New Guinea area in the north, the South Pacific islands to the east and many subantarctic islands south of New Zealand. We have also excluded our own unpublished records and those of common species in ecological papers which merely confirm the known geographic range. Similarly we have excluded repetitions of earlier records such as those given by Baird (1865), Quatrefages (1865), Hutton (1879), Haswell (1883), Whitelegge (1889) and Fyfe (1952) unless they show changes in nomenclature or include useful notes. THE FORMAT OF THE CHECK-LIST Within each family what we regard as the valid specific names are listed in alphabetical orderwith the synonyms inset below each. Each specific name is followed by the author's name and date and then the locality records. In order to distinguish the type locality from others this is shown separately and later records are shown below. No locality record is given for types first described from any area outside the Australian-New Zealand region so that it is possible to distinguish these "foreign" species. Since many of the place names that have been used in the references are difficult to locate even with a good gazeteer, all locality records are given in degrees of latitude and longitude. With the exception of Kermadec Island and some islands of the Chatham group which ar.e in west longitude, the whole Australian-New Zealand region is in south latitude and east longitude. It is thus possible to save space by omitting the letters S (south) and E(east) after the degrees of latitude and longitude except for Kermadec and some of the Chatham Island records which are marked W (west). For the sake of brevity only degrees are given and minutes of latitude and longitude are omitted. Thus Port Jackson (Sydney Harbour) in 33°58'S, 151°00'E is reduced to 33/151. The numerous records from in and around Port Jackson including those from the famous collecting site at Long Reef, Collaroy all fall within this latitude/longitude square of 60 x 60 nautical miles and all are shown by the one record. It is appreciated that this method of presentation does not AUST. and N. Z. POLYCHAETA, ARCHIANNELIDA AND MYZOSTOMIDA 82 define the exact collecting site but it is sufficient for taxonomic and zoogeographic purposes and saves a great deal of space. If more exact records are required for ecological studies, the list of references given for that species may be consulted. Depth records are also summarised and represented by the following symbols: "i" indicates intertidal records; "e" = estuarine; "p" = planktonic; "t" = turbulent zone (0-30 m); "0" = outer shelf (31-100 m); "d" = deep (101-500 m); "vd" = very deep (501-1000 m); "a" = archibenthal or abyssal (over 1000 m), "fw" = freshwater. For example a record from Perth on the Swan River estuary is shown as 32/115/e; one from Rottnest Island in 10 m is shown as 32/115/t and one from the shore of Cockburn Sound is shown as 32/115/i. All three records are summarised as 32/115/e, i, t. It should be noted that many of the original records do not give the depth and these are shown by "?"; probably most of these were intertidal or shallow-water records. A map marked with two degree latitude/longitude squares is provided for ease of reference (Fig. 1), and the records are grouped for each state or country which is indicated by the letters NT for Northern Territories, WA for Western Australia, QLD for Queensland, NSW for New South Wales, SA for South Australia, TAS forTasmania, and NZ for NewZealand. Records for Kermadec Is., Chatham Is., Auckland Is. and Campbell Is. are written out in full. SYNONYMY The synonyms are listed in date order below each valid specific name with the relevant references and records. It has been necessary to use discretion in listing synonymy for even well-known workers do not always agree. The widely accepted synonyms are Iisted by Hartman (1959, 1965) and many others have been extracted from recent reviews of genera by workers such as Pettibone on certain Polynoidae and Sigalionidae, Imajima on the Syllidae, Banse on the Fabriciinae, ten Hove and Zibrowius on the Serpulinae and Knight-Jones on the Spirorbinae. In controversial cases we have quoted the conflicting views of the main authorities. In spite of this it is obvious that much remains to be done before all the invalid records are eliminated. In many cases it will demand a re-examination of older collections and the types of Australian and New Zealand species. To facilitate such work the repositories of species described from the area are listed below as far as they could be ascertained. REPOSITORIES OF COLLECTIONS AND TYPE MATERIAL Unfortunately very few early workers state where their collections are deposited, and the list below is based partly on the title of the paper or the journal in which it was published supplemented by inquiries at different museums. It should be noted that some specimens in German museums were destroyed during the war. Ashworth's collections of Arenicolidae are in the British Museum of Natural History. Augener's material
Load more

Recommended publications
  • Polychaete Worms Definitions and Keys to the Orders, Families and Genera
    THE POLYCHAETE WORMS DEFINITIONS AND KEYS TO THE ORDERS, FAMILIES AND GENERA THE POLYCHAETE WORMS Definitions and Keys to the Orders, Families and Genera By Kristian Fauchald NATURAL HISTORY MUSEUM OF LOS ANGELES COUNTY In Conjunction With THE ALLAN HANCOCK FOUNDATION UNIVERSITY OF SOUTHERN CALIFORNIA Science Series 28 February 3, 1977 TABLE OF CONTENTS PREFACE vii ACKNOWLEDGMENTS ix INTRODUCTION 1 CHARACTERS USED TO DEFINE HIGHER TAXA 2 CLASSIFICATION OF POLYCHAETES 7 ORDERS OF POLYCHAETES 9 KEY TO FAMILIES 9 ORDER ORBINIIDA 14 ORDER CTENODRILIDA 19 ORDER PSAMMODRILIDA 20 ORDER COSSURIDA 21 ORDER SPIONIDA 21 ORDER CAPITELLIDA 31 ORDER OPHELIIDA 41 ORDER PHYLLODOCIDA 45 ORDER AMPHINOMIDA 100 ORDER SPINTHERIDA 103 ORDER EUNICIDA 104 ORDER STERNASPIDA 114 ORDER OWENIIDA 114 ORDER FLABELLIGERIDA 115 ORDER FAUVELIOPSIDA 117 ORDER TEREBELLIDA 118 ORDER SABELLIDA 135 FIVE "ARCHIANNELIDAN" FAMILIES 152 GLOSSARY 156 LITERATURE CITED 161 INDEX 180 Preface THE STUDY of polychaetes used to be a leisurely I apologize to my fellow polychaete workers for occupation, practised calmly and slowly, and introducing a complex superstructure in a group which the presence of these worms hardly ever pene- so far has been remarkably innocent of such frills. A trated the consciousness of any but the small group great number of very sound partial schemes have been of invertebrate zoologists and phylogenetlcists inter- suggested from time to time. These have been only ested in annulated creatures. This is hardly the case partially considered. The discussion is complex enough any longer. without the inclusion of speculations as to how each Studies of marine benthos have demonstrated that author would have completed his or her scheme, pro- these animals may be wholly dominant both in num- vided that he or she had had the evidence and inclina- bers of species and in numbers of specimens.
    [Show full text]
  • In Deep-Sea Habitats Around the Iberian Margin
    Deep-Sea Research II ∎ (∎∎∎∎) ∎∎∎–∎∎∎ Contents lists available at ScienceDirect Deep-Sea Research II journal homepage: www.elsevier.com/locate/dsr2 Taxonomy, distribution and ecology of the order Phyllodocida (Annelida, Polychaeta) in deep-sea habitats around the Iberian margin Ascensão Ravara a,n, Diana Ramos b, Marcos A.L. Teixeira c, Filipe O. Costa c, Marina R. Cunha a a Departamento de Biologia & CESAM, Universidade de Aveiro, Aveiro, Portugal b Departamento de Biologia, Universidade de Aveiro, Aveiro, Portugal c Centro de Biologia Molecular Ambiental (CBMA), Departamento de Biologia, Universidade do Minho, Braga, Portugal article info abstract The polychaetes of the order Phyllodocida (excluding Nereidiformia and Phyllodociformia incertae sedis) Keywords: collected from deep-sea habitats of the Iberian margin (Bay of Biscay, Horseshoe continental rise, Gulf of Polychaeta Cadiz and Alboran Sea), and Atlantic seamounts (Gorringe Bank, Atlantis and Nameless) are reported Phyllodocida herein. Thirty-six species belonging to seven families – Acoetidae, Pholoidae, Polynoidae, Sigalionidae, Deep-sea Glyceridae, Goniadidae and Phyllodocidae, were identified. Amended descriptions and/or new illustra- Iberian margin tions are given for the species Allmaniella setubalensis, Anotochaetonoe michelbhaudi, Lepidasthenia Barcoding brunnea and Polynoe sp. Relevant taxonomical notes are provided for other seventeen species. Allmaniella setubalensis, Anotochaetonoe michelbhaudi, Harmothoe evei, Eumida longicirrata and Glycera noelae, pre- viously known only from their type localities were found in different deep-water places of the studied areas and constitute new records for the Iberian margin. The geographic distributions and the bathy- metric range of thirteen and fifteen species, respectively, are extended. The morphology-based biodi- versity inventory was complemented with DNA sequences of the mitochondrial barcode region (COI barcodes) providing a molecular tag for future reference.
    [Show full text]
  • Cryptic Speciation in the Acari: a Function of Species Lifestyles Or Our Ability to Separate Species?
    Exp Appl Acarol DOI 10.1007/s10493-015-9954-8 REVIEW PAPER Cryptic speciation in the Acari: a function of species lifestyles or our ability to separate species? 1 2 Anna Skoracka • Sara Magalha˜es • 3 4 Brian G. Rector • Lechosław Kuczyn´ski Received: 10 March 2015 / Accepted: 19 July 2015 Ó The Author(s) 2015. This article is published with open access at Springerlink.com Abstract There are approximately 55,000 described Acari species, accounting for almost half of all known Arachnida species, but total estimated Acari diversity is reckoned to be far greater. One important source of currently hidden Acari diversity is cryptic speciation, which poses challenges to taxonomists documenting biodiversity assessment as well as to researchers in medicine and agriculture. In this review, we revisit the subject of biodi- versity in the Acari and investigate what is currently known about cryptic species within this group. Based on a thorough literature search, we show that the probability of occur- rence of cryptic species is mainly related to the number of attempts made to detect them. The use of, both, DNA tools and bioassays significantly increased the probability of cryptic species detection. We did not confirm the generally-accepted idea that species lifestyle (i.e. free-living vs. symbiotic) affects the number of cryptic species. To increase detection of cryptic lineages and to understand the processes leading to cryptic speciation in Acari, integrative approaches including multivariate morphometrics, molecular tools, crossing, ecological assays, intensive sampling, and experimental evolution are recommended. We conclude that there is a demonstrable need for future investigations focusing on potentially hidden mite and tick species and addressing evolutionary mechanisms behind cryptic speciation within Acari.
    [Show full text]
  • Strong Linkages Between Depth, Longevity and Demographic Stability Across Marine Sessile Species
    Departament de Biologia Evolutiva, Ecologia i Ciències Ambientals Doctorat en Ecologia, Ciències Ambientals i Fisiologia Vegetal Resilience of Long-lived Mediterranean Gorgonians in a Changing World: Insights from Life History Theory and Quantitative Ecology Memòria presentada per Ignasi Montero Serra per optar al Grau de Doctor per la Universitat de Barcelona Ignasi Montero Serra Departament de Biologia Evolutiva, Ecologia i Ciències Ambientals Universitat de Barcelona Maig de 2018 Adivsor: Adivsor: Dra. Cristina Linares Prats Dr. Joaquim Garrabou Universitat de Barcelona Institut de Ciències del Mar (ICM -CSIC) A todas las que sueñan con un mundo mejor. A Latinoamérica. A Asun y Carlos. AGRADECIMIENTOS Echando la vista a atrás reconozco que, pese al estrés del día a día, este ha sido un largo camino de aprendizaje plagado de momentos buenos y alegrías. También ha habido momentos más difíciles, en los cuáles te enfrentas de cara a tus propias limitaciones, pero que te empujan a desarrollar nuevas capacidades y crecer. Cierro esta etapa agradeciendo a toda la gente que la ha hecho posible, a las oportunidades recibidas, a las enseñanzas de l@s grandes científic@s que me han hecho vibrar en este mundo, al apoyo en los momentos más complicados, a las que me alegraron el día a día, a las que hacen que crea más en mí mismo y, sobre todo, a la gente buena que lucha para hacer de este mundo un lugar mejor y más justo. A tod@s os digo gracias! GRACIAS! GRÀCIES! THANKS! Advisors’ report Dra. Cristina Linares, professor at Departament de Biologia Evolutiva, Ecologia i Ciències Ambientals (Universitat de Barcelona), and Dr.
    [Show full text]
  • Scaled Polychaetes
    Scaled Polychaetes (Polynoidae) Associated with Ophiuroids and Other Invertebrates and Review of Species Referred to Malmgrenia Mclntosh and Replaced by Malmgreniella Hartman, with Descriptions of New Taxa MARIAN H. PETTIBONE I SMITHSONIAN CONTRIBUTIONS TO ZOOLOGY • NUMBER 538 SERIES PUBLICATIONS OF THE SMITHSONIAN INSTITUTION Emphasis upon publication as a means of "diffusing knowledge" was expressed by the first Secretary of the Smithsonian. In his formal plan for the Institution, Joseph Henry outlined a program that included the following statement: "It is proposed to publish a series of reports, giving an account of the new discoveries in science, and of the changes made from year to year in all branches of knowledge." This theme of basic research has been adhered to through the years by thousands of titles issued in series publications under the Smithsonian imprint, commencing with Smithsonian Contributions to Knowledge in 1848 and continuing with the following active series: Smithsonian Contributions to Anthropology Smithsonian Contributions to Astrophysics Smithsonian Contributions to Botany Smithsonian Contributions to the Earth Sciences Smithsonian Contributions to the Marine Sciences Smithsonian Contributions to Paleobiology Smithsonian Contributions to Zoology Smithsonian Folklife Studies Smithsonian Studies in Air and Space Smithsonian Studies in History and Technology In these series, the Institution publishes small papers and full-scale monographs that report the research and collections of its various museums and bureaux or of professional colleagues in the world of science and scholarship. The publications are distributed by mailing lists to libraries, universities, and similar institutions throughout the world. Papers or monographs'submitted for series publication are received by the Smithsonian Institution Press, subject to its own review for format and style, only through departments of the various Smithsonian museums or bureaux, where the manuscripts are given substantive review.
    [Show full text]
  • Resilience of Long-Lived Mediterranean Gorgonians in a Changing World: Insights from Life History Theory and Quantitative Ecology
    Resilience of Long-lived Mediterranean Gorgonians in a Changing World: Insights from Life History Theory and Quantitative Ecology Ignasi Montero Serra Aquesta tesi doctoral està subjecta a la llicència Reconeixement 3.0. Espanya de Creative Commons. Esta tesis doctoral está sujeta a la licencia Reconocimiento 3.0. España de Creative Commons. This doctoral thesis is licensed under the Creative Commons Attribution 3.0. Spain License. Departament de Biologia Evolutiva, Ecologia i Ciències Ambientals Doctorat en Ecologia, Ciències Ambientals i Fisiologia Vegetal Resilience of Long-lived Mediterranean Gorgonians in a Changing World: Insights from Life History Theory and Quantitative Ecology Memòria presentada per Ignasi Montero Serra per optar al Grau de Doctor per la Universitat de Barcelona Ignasi Montero Serra Departament de Biologia Evolutiva, Ecologia i Ciències Ambientals Universitat de Barcelona Maig de 2018 Adivsor: Adivsor: Dra. Cristina Linares Prats Dr. Joaquim Garrabou Universitat de Barcelona Institut de Ciències del Mar (ICM-CSIC) A todas las que sueñan con un mundo mejor. A Latinoamérica. A Asun y Carlos. AGRADECIMIENTOS Echando la vista a atrás reconozco que, pese al estrés del día a día, este ha sido un largo camino de aprendizaje plagado de momentos buenos y alegrías. También ha habido momentos más difíciles, en los cuáles te enfrentas de cara a tus propias limitaciones, pero que te empujan a desarrollar nuevas capacidades y crecer. Cierro esta etapa agradeciendo a toda la gente que la ha hecho posible, a las oportunidades recibidas, a las enseñanzas de l@s grandes científic@s que me han hecho vibrar en este mundo, al apoyo en los momentos más complicados, a las que me alegraron el día a día, a las que hacen que crea más en mí mismo y, sobre todo, a la gente buena que lucha para hacer de este mundo un lugar mejor y más justo.
    [Show full text]
  • Oceanography Marine Biology
    OCEANOGRAPHY and MARINE BIOLOGY AN ANNUAL REVIEW Volume 39 Editors R. N. Gibson and Margaret Barnes The Dunstaffnage Marine Laboratory Oban, Argyll, Scotland R. 1. A. Atkinson University Marine Biological Station Millport, Isle ofCumbrae, Scotland Founded by Harold Barnes Oceanography and Marine Biology: an Annual Review 20tll, 39, 1 ~~101 R. N. Gibson. Margaret Barnes and R. J. A. Atkinson, Editors Taylor & Francis LIFE-HISTORY PATTERNS IN SERPULIMORPH POLYCHAETES: ECOLOGICAL AND EVOLUTIONARY PERSPECTIVES 1 2 3 ELENA K. KUPRIYANOVA , EIJIROH NISHI , HARRY A. TEN HOVE & ALEXANDER V. RZHAVSKy4 I School ofBiological Sciences, Flinders University, GPO Box 2100, Adelaide 5001, Australia e-mail: [email protected] (the corresponding author) 2 Manazuru Marine Laboratory for Science Education, Yokohama National University, Iwa, Manazuru, Kanagawa 259-0202, Japan 3 Instituut voor Biodiversiteit en Ecosysteem Dynamica/Zoologiscli Museum, Universiteit van Amsterdam, Mauritskade 61, NL-1090 GT Amsterdam, The Netherlands 4 A. N. Severtsov Institute ofEcology and Evolution ofthe Russian Academy ofSciences, Lozinski} Prospekt 33, Moscow, 117071, Russia Abstract The paper summarises information on the life history of tubeworms (Serpulidae and Spirorbidae). Topics reviewed are sexuality patterns, asexual reproduction, gamete attributes, fecundity, spawning and fertilisation, larval development and morphology, larval ecology and behaviour (including larval swimming, feeding, photoresponse, and defences), brooding, settle­ ment and metamorphosis, longevity and mortality. Gonochorism, simultaneous and sequential hermaphroditism are found in the group, the last pattern being apparently under-reported. Asexual reproduction commonly leads to the formation ofcolonies. The egg size range is 40-200 11m in serpulids and 80--230 11m in spirorbids. The sperms with spherical and with elongated heads correspond, respectively, to broadcasting and brooding.
    [Show full text]
  • Polychaeta) from Australia
    AUSTRALIAN MUSEUM SCIENTIFIC PUBLICATIONS Dew, Barbara, 1959. Serpulidae (Polychaeta) from Australia. Records of the Australian Museum 25(2): 19–56. [1 September 1959]. doi:10.3853/j.0067-1975.25.1959.654 ISSN 0067-1975 Published by the Australian Museum, Sydney nature culture discover Australian Museum science is freely accessible online at http://publications.australianmuseum.net.au 6 College Street, Sydney NSW 2010, Australia VOL. XXV, No. 2 SYDNEY, 1st September, 1959 RECORDS of The _Australian Museum (World List abbreviation: Rec. Aust. Mus.) Printed by order of the Trustees Edited by the Director, J. W. EVANS, Sc.D. Serpulidae (Polychaeta) frOm Australia By BARBARA DEW School of Public Health and Tropical Medicine Pages 19-56 Figs. 1-21 Registered at the General Post Office, Sydney, for transmission by post as a periodical *(-)28:32 0 0 ~. 110 120 1300 1400 1500 c;r., N 00 w T I MOR SEA I GRENVILLE - BAY t ISLES NORTHERN !2o°f-1-+-- 20° TERRITORY OUEENSLAND .~~~;~E~e~Tis "1] J> Z n « WESTERN w n U STRALIA o SOU T H EVANS HO 30°f-1-+---- --f~--.-.--.. -- A U S T R A _L_I_A___ "- ____ 30° NEW SOUTH WALES] o NORAH HEA IZ n ,« I . ~':}tPT JACKSON rn BOTAN;L~/I:'9PT HACKING J> Z I~ SD ULLADULL ., I ! J I ,I _____--<,40° TI-·~--- I I I 1100 Izeo 1300 1400 R.B. Fig 1: Map of Australia, showing localities mentioned in text. 19 SERPULIDAE (POLYCHAETA) FROM AUSTRALIA By BARRARA DEW (Figs. 1-21) Manuscript. Received 30.9.58 INTRODUCTION This study was part of the marine fouling programme (Allen and Wood, 1950) of the C.S.I.R.O.
    [Show full text]
  • Zootaxa, Taxonomy of Serpulidae (Annelida, Polychaeta)
    ZOOTAXA 2036 Taxonomy of Serpulidae (Annelida, Polychaeta): The state of affairs HARRY A. TEN HOVE & ELENA K. KUPRIYANOVA Magnolia Press Auckland, New Zealand Harry A. ten Hove & Elena K. Kupriyanova Taxonomy of Serpulidae (Annelida, Polychaeta): The state of affairs (Zootaxa 2036) 126 pp.; 30 cm. 16 March 2009 ISBN 978-1-86977-327-4 (paperback) ISBN 978-1-86977-328-1 (Online edition) FIRST PUBLISHED IN 2009 BY Magnolia Press P.O. Box 41-383 Auckland 1346 New Zealand e-mail: [email protected] http://www.mapress.com/zootaxa/ © 2009 Magnolia Press All rights reserved. No part of this publication may be reproduced, stored, transmitted or disseminated, in any form, or by any means, without prior written permission from the publisher, to whom all requests to reproduce copyright material should be directed in writing. This authorization does not extend to any other kind of copying, by any means, in any form, and for any purpose other than private research use. ISSN 1175-5326 (Print edition) ISSN 1175-5334 (Online edition) 2 · Zootaxa 2036 © 2009 Magnolia Press TEN HOVE & KUPRIYANOVA Zootaxa 2036: 1–126 (2009) ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ ZOOTAXA Copyright © 2009 · Magnolia Press ISSN 1175-5334 (online edition) Taxonomy of Serpulidae (Annelida, Polychaeta): The state of affairs HARRY A. TEN HOVE1 & ELENA K. KUPRIYANOVA2 1Zoological Museum, University of Amsterdam POB 94766, 1090 GT Amsterdam, The Netherlands E-mail: [email protected] 2Earth and Environmental Sciences, University of Adelaide SA 5005 Adelaide Australia1 E-mail: [email protected], [email protected] Table of contents Abstract ..............................................................................................................................................................................
    [Show full text]
  • A Survey of the Echinoderm Associates of the North-East Atlantic Area
    A SURVEY OF THE ECHINODERM ASSOCIATES OF THE NORTH-EAST ATLANTIC AREA by G. D. N. BAREL Zoologisch Laboratorium der Rijksuniversiteit, Kaiserstraat 63, Leiden, the Netherlands and P. G. N. KRAMERS Rijksinstituut voor de Volksgezondheid, P.O. Box 1, Bilthoven, the Netherlands With 17 text-figures CONTENTS Introduction 3 Systematic list of associate records 6 Protozoa 7 Coelenterata 31 Platyhelminthes 32 Mesozoa 41 Nematoda 42 Rotatoria 43 Entoprocta 44 Annelida 44 Tardigrada 58 Arthropoda 59 Mollusca 81 Bryozoa 90 Hemichordata 91 Chordata 91 Schizomycetes 92 Cyanophyta 92 Chlorophyta 92 Incertae sedis 92 List of collecting localities 93 Alphabetic list of the host species and their associates 94 Host-associate relationships 108 Acknowledgements 112 References 113 Index to the associate-species 138 Figures 143 INTRODUCTION Animals living in association with echinoderms are known from at least sixteen phyla. The majority belongs to some of the largest phyla (Protozoa, Platyhelminthes, Annelida, Mollusca and Arthropoda), but representatives of small and inconspicuous groups such as Mesozoa, Rotatoria, Tardigrada and 4 ZOOLOGISCHE VERHANDELINGEN 156 (1977) Entoprocta have repeatedly been recorded as associates of echinoderms. Vertebrates living in echinoderms are exemplified by the fishes of the genus Carapus, which are associated with holothurians. Other examples from phyla which are rarely involved in intimate relation- ships with echinoderms are the ctenophore Coeloplana astericola, which was found in great numbers on Echinaster luzonicus from Amboina (Mortensen, 1927a) and the sponge Microcordyla asteriae, which was found at the bases of the arm spines of Asterias tenuispina at Naples (Zirpolo, 1927). Not only animals, but also a few plant species have been recorded to live in or on echinoderms.
    [Show full text]
  • An Updated Synthesis of the Impacts of Ocean Acidification on Marine Biodiversity CBD Technical Series No
    Secretariat of the CBD Technical Series Convention on No. 75 Biological Diversity 75 An Updated Synthesis of the Impacts of Ocean Acidification on Marine Biodiversity CBD Technical Series No. 75 AN UPDATED SYNTHESIS OF THE IMPACTS OF OCEAN ACIDIFICATION ON MARINE BIODIVERSITY The designations employed and the presentation of material in this publication do not imply the expression of any opinion whatsoever on the part of the copyright holders concerning the legal status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. This publication may be reproduced for educational or non-profit purposes without special permission, provided acknowledgement of the source is made. The Secretariat of the Convention would appreciate receiving a copy of any publications that use this document as a source. Reuse of the figures is subject to permission from the original rights holders. Published by the Secretariat of the Convention on Biological Diversity. ISBN 92-9225-527-4 (print version); ISBN 92-9225-528-2 (web version) Copyright © 2014, Secretariat of the Convention on Biological Diversity Citation: Secretariat of the Convention on Biological Diversity (2014). An Updated Synthesis of the Impacts of Ocean Acidification on Marine Biodiversity (Eds: S. Hennige, J.M. Roberts & P. Williamson). Montreal, Technical Series No. 75, 99 pages For further information, contact: Secretariat of the Convention on Biological Diversity World Trade Centre, 413 Rue St. Jacques, Suite 800, Montréal, Quebec,Canada H2Y 1N9 Tel: +1 (514) 288 2220 Fax: +1 (514) 288 6588 E-mail: [email protected] Website: www.cbd.int Cover images, top to bottom: Katharina Fabricius; N.
    [Show full text]
  • Program & Abstracts
    IPC13 Program & Abstracts 1 Table of Contents Section Pages Welcome 2 Major Sponsors 3 Meeting Code of Conduct 4 Meeting Venue 5 Restaurants 6 Getting to and from Downtown Long Beach 7-8 Presentation Information 9 Overview of the Schedule 10 Detailed Schedule of Events 11-15 List of Poster Presentations 16-22 Abstracts: Oral Presentations 23-37 Abstracts: Poster Presentations 38-58 List of IPC13 Participants 59-64 Notes 65-67 Colleagues Recently Lost 68 2 Welcome from IPC13 Organizing Committee Greetings Polychaete Colleagues, On behalf of the Organizing Committee, welcome to sunny Southern California, the RMS Queen Mary, and the 13th International Polychaete Conference! We hope that your travel to Long Beach was pleasant and that you are ready for five days of enlightening programs and time spent with friends and colleagues. In 1989, IPC3 took place in Long Beach, organized by Dr. Donald Reish. In 2015, Don approached us to ask if it might be possible to bring IPC13 back to Long Beach, thirty years later. We agreed to work towards that goal, and in 2016 the attendees of IPC12 in Wales selected Long Beach as the venue for the next meeting. Unfortunately, Don did not live to see his dream become a reality, but his passion for all facets of polychaete biology is represented in this conference through the broad diversity of presentations that are offered. We know that he would be very pleased and honored by your participation in this meeting. The conference would not have been possible without your support and participation. In addition, we would like to express sincere thanks to those organizations that have supported the conference, either financially or by other critical means.
    [Show full text]